CZ53696A3 - Device for indicating electrical instrument failures - Google Patents

Abstract

Fault current in the equipment is detected by a pref. fusible resistance (10) in a brittle insulating housing (6) contg. a small explosive charge (11) which blows the Al or alloy casing (4) into two separate parts (12, 13) contg. the respective electrodes (7, 8). The explosion renders visible the coloured coating (16) on the outside of the one part (13), and also establishes a galvanic connection for diversion of the fault current. Gas is ejected in predetermined directions through openings (15) in the other part (12) which may incorporate filters to confine solid particles within the casing.

Description

Technical field

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a device for indicating a fault in an electrical apparatus, in particular a surge arrester, with a sensor for detecting a faulty current flowing through the apparatus, with a gas-tight insulating body and an indicating element. In the event of a fault current, the sensor causes the insulation body to break and the indicator element to become visible. An observer can recognize a device failure without the use of ancillary means and replace it in time.

Background Art

The solution according to the invention is based on the known embodiment of these indicating devices, one of which is described, for example, in EP 0 564 334 A1. The indicating device described in this document is used to monitor the malfunction of the overvoltage arrester used in the high or medium voltage network. This indicating device comprises an insulating body with an easily breakable window. The surge arrester current terminal passes through this insulating body. A portion of the current clamp located within the insulating body is surrounded by a magnet core that carries a secondary winding of the current converter, the primary winding of which is a current clamp. The secondary winding is connected to an ohmic resistor which is embedded in the explosive charge arranged inside the insulating body. When a fault current occurs, the ohmic resistor, which is constantly powered by the current from the inverter, becomes very strong. The resistance is heated above the critical temperature limit and ignites the explosive charge. In this case, the window in the insulating body breaks and the colored ribbon serving as an indicator element is ejected therefrom. After a device failure signal has been made, the surge arrester and indicator are disassembled and replaced.

SUMMARY OF THE INVENTION It is therefore an object of the present invention to provide a device for indicating a fault in an electrical apparatus which is of simple construction and which can be put into operation again economically after a fault in the apparatus.

SUMMARY OF THE INVENTION

This object is achieved by a device for indicating the failure of an electrical apparatus, in particular a surge arrester, with a sensor for detecting a faulty current flowing through the apparatus, with a gas-tight insulating body and an indicator element according to the invention, the principle of which is that the insulating body is surrounded by a two-part metal housing carrying the indicating element. wherein the sensor and the insulating body are part of a switching element which, when a faulty current is generated, causes the two parts of the metal housing to move relative to each other by generating a pressurized gas, thereby making the indicating element visible and forming a galvanic connection which receives the faulty current.

Thus, in addition to the multi-use metal housing, the device according to the invention comprises only a commercially available large series switch element whose remnants are easily removed or removed from the metal housing after the apparatus has been reacted and which is easily replaced by a new switching element.

By appropriately dimensioning the ohmic resistance in a switching element, such as a fuse or a PTC resistor, or a positive temperature coefficient resistor, the operating conditions to be received by the protective device of the invention, such as current surges, e.g. / 10s, acting on this device without causing it to react. By using a spark gap arranged in parallel with the ohmic resistor, a light arc is ignited when the indicating device responds, which with great certainty causes an explosion of the explosive charge in the switching element. The splinters that are generated are captured by the metal cover and the resulting compressed gas is guided through the metal cover in directions in which it cannot harm. The indicating element located on the metal cover, which becomes visible when the device responds, can be well observed from virtually all sides.

BRIEF DESCRIPTION OF THE DRAWINGS

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is an axial sectional view of a device of the invention having a substantially cylindrical symmetrical shape and incorporated into a current terminal of a surge arrester prior to reacting due to a faulty current and FIG. 2 shows the device according to the invention according to FIG.

EXAMPLES OF THE INVENTION

1 and 2, there is shown an electrical apparatus designed as a surge arrester 1 with a potential-carrying portion 2 which acts as a current clamp and which is electrically conductively connected to the device 3 to indicate an electrical apparatus failure, in this case arrester 1 overvoltage. The device 2 comprises a two-piece metal housing 4 of a material which is well conducting an electric current, such as aluminum or an aluminum alloy, which is attached to the switching element 5 of the device 3.

The switching element 5 comprises a cylindrically symmetrical gas-tight insulating body 6 made of a brittle material, for example a highly filled epoxy-based polymer, and two cylindrically symmetrical electrodes 7, 8 extending into the insulating body 6 and fixed at one of the ends of the insulating body 6 The two electrodes 2 are arranged above the bead in the axis of the insulating body 6 and with their free ends facing each other, the end of the electrode 2 being formed as a tip, forms sparks 9 located in the insulating body 6. The end portions of the electrodes 2 facing each other, θ are connected to the current terminals of the resistor 10 connected in parallel to the spark gap 9 and formed preferably as a fuse or a positive temperature coefficient thermistor. Resistor 10 is dimensioned such that it can conduct a current shock, for example of 100 kA and a length of 4/10 μβ, which the surge arrester 1 can withstand, with a load greater than a predetermined time, for example 0.1 ms, than a predetermined limit value, for example a 20 A current, its electrical conductivity decreases abruptly by melting or PTC transition. An explosive charge 11 is disposed inside the insulating body 6 near the spark gaps 9, the amount of which is determined such that upon ignition of the explosive charge 11, the insulating body 6 is divided into at least two mutually guided parts, each fixing one of the two electrodes 2, θ ·

The metal casing 4 is formed by two cup bodies 12, 13 having different diameters and which are fixed in their respective ends at opposite ends of the switching element 5. In the first cup body 12 having a larger diameter, a second cup body 13 is accommodated with a smaller diameter. average. The first cup body 12 is provided at its bottom with an opening through which the current clamp of the electrode 2 ' The first cup body 12 is fixedly connected to the upper end of the switching element 5 by means of a nut (not shown). The first cup body 12 carries at its edge at least one annular contact element 14 facing the inside of the first cup body 12 and provided with an inner cone. This annular contact element 14 is provided with an internal thread corresponding to the outer thread of the first cup body 12. The first cup body 12 is further provided with exhaust ports 15 for compressed gas. These exhaust openings 15 may be provided with filters retaining solid particles within the metal housing 4 and are formed so that the emerging compressed gas is guided in a predetermined direction.

The second cup body 13 is also provided at its bottom with an opening through which the electrode 8 current terminal provided with an external thread and connected to the earth passes. The second cup body 13 is fixedly connected to the lower end of the switching element 5 by means of a nut (not shown). The second cup body 13 carries on its outer side, covered by the first cup body 12, an indicator element 16 formed, for example, as a color layer. The second cup body 13 is conically widened and is formed as an electrical contact element 17 in the region of its edge on its outer side, adapted to the inner cone of the annular contact element 14. The inside of the metal cover 4 is closed by a lid 18 guided from the bottom of the second cup body 13k the edge of the first cup body 12.

The mode of operation of the device 2 is as follows: under normal operating conditions, the surge arrester 1 results in only a small leakage current of the order of magnitude of milliamperes. This leakage current flows from the potential-conducting part 2 through the electrode 7, the resistor 10, the other electrode 8 and into the ground through a flexible conductive part (not shown) connected to the further electrode 8 by means of a screw connection. Similarly, current surges guaranteed by the surge arrester 1, such as 100 kA and 4/10 με, flow through the surge arrester 1 as an overvoltage sequence without the device 2 reacting.

If the surge arrester 1 or another electrical device, such as a switch or transformer insulator, or a high voltage device insulator, fails, a faulty current of the order of magnitude or even kiloamperes resides in the ohmic resistor 10 acting as a current sensor. Resistor 10 is heavily heated and, within a few milliseconds, goes into a high ohmic state by melting or moving PTC. The erroneous current commutes now when the light arc is formed into the current circuit containing the spark gap 9. The explosive charge 11 is ignited at the spark gap 9. The light arc is ignited by the light arc formed. The compressed gas that is generated thereby bursts the brittle insulating body 6 at once and causes the electrode 8 and the second cup body 13 to be fixedly fixed downwardly to the state of the device 3 shown in FIG. The shells, the casing 4 surrounded by the breakage of the insulating body 6, are retained by the metal casing 4.

In the state of the device 3 shown in FIG. 2, the conical widening of the second cup contact element 14 is jammed. Wrong bodies 13., created as

17, and therefore the annular contact current is no longer guided through the spark gap 2 of the switching element 5, but now flows through the first cup body 12, galvanically connected to the electrode 7, and the contact elements 14 and 17 connected to each other and the second cup body 13 galvanically connected to the other electrode 8, into the ground. The portion of the first cup body 12, which supports the indicator element 16, is now well visible and signals to the viewer a failure of the surge arrester 1. This surge arrester 1 and device 3 can then be removed and replaced with new devices.

The device 2 can be separately economically restored by mounting a new switching element 5. After unscrewing the annular contact element 14 and releasing the two nuts (not shown), only the two electrodes 7 and 8 must be removed and then the new switching element 5 inserted and screwed again.

Claims (10)

PATENT CLAIMS Apparatus for indicating a fault in an electrical apparatus, in particular an overvoltage arrester (1), with a sensor for detecting a fault current flowing through the apparatus, with a gas-tight insulating body (6) and an indicating element (16), characterized in that the insulating body (6) it is surrounded by a two-piece metal housing (4) carrying the indicating element (16), the sensor and the insulating body (6) being part of a switching element (5) which, when a faulty current is generated, causes the two parts of the metal housing (4) to move relative to each other , wherein the indicator element (16) is made visible and a galvanic connection is formed which takes the wrong current. Device according to claim 1, characterized in that the metal cover (4) is formed by two cup bodies (12, 13) having different diameters and which are fixed in their respective days at opposite ends of the switching element (5), a second cup body (13) having a smaller diameter is disposed in the first cup body (12) having a larger diameter, and an indicator element (16) is disposed on the outside of the cup cup body (13). Device according to claim 2, characterized in that the second cup body (13) is conical and the first cup body (12) is provided at its edge with at least one contact element (14) facing the inside of the cup bodies (12). 13), which, when the two cup bodies (12, 13) are displaced, abuts the conical extension of the second cup body (13) while maintaining a galvanic connection. Device according to claim 3, characterized in that the at least one contact element (14) is designed as a ring and is provided with a cone-shaped conical extension of the second bowl body (13). i · ϊί * Ι «ί · * Κ '>» Ίίΐ6> Γ.' '«ΤΊ Device according to one of claims 2 to 4, characterized in that the inside of the metal cover (4) is closed by a cover (18) extending from the bottom of the second bowl body (13) to the edge of the first bowl body (12). Device according to one of claims 2 to 5, characterized in that at least one cup body (12) of the two cup bodies (12, 13) is provided with exhaust openings (15) for the compressed gas formed. Device according to one of Claims 1 to 6, characterized in that a spark gap (9) is provided in the insulating body (6) of the switching element (5), connected electrically conductively to the component (2), and the charge (11). ) explosives. Device according to claim 7, characterized in that the sensor is formed by an ohmic resistor (10) arranged parallel to the spark gap (9). Device according to claim 7 or 8, characterized in that the two electrodes (7, 8) of the spark gap (9) are fixed in the insulating body (6) of the switching element (5) and carry one of the two cup bodies in an electrically conductive manner. (12, 13). Device according to claim 9, characterized in that the insulating body (6) of the material and, when compressed, at least two parts are guided one of the two electrodes (7, 8). characterized by being made of a brittle gas can be divided into and fixed each time 1/2 o - - /% 95/022 η; * ’Fo CBR. 95/022